x60.md 16 KB

% X60

Native gpu initialization ('native graphics') which replaces the proprietary VGA Option ROM ('Video BIOS' or 'VBIOS'), all known LCD panels are currently compatible:

To find what LCD panel you have, see: ../misc/#get_edid_panelname.

  • TMD-Toshiba LTD121ECHB: #
  • CMO N121X5-L06: #
  • Samsung LTN121XJ-L07: #
  • BOE-Hydis HT121X01-101: #

You can remove an X61/X61s motherboard from the chassis and install an X60/X60s motherboard in it's place (for flashing libreboot). The chassis is mostly identical and the motherboards are the same shape/size.

The X60 typically comes with an Intel wifi chipset which does not work at all without proprietary firmware, and while Lenovo BIOS is running the system will refuse to boot if you replace the card. Fortunately it is very easily replaced; just remove the card and install another one after libreboot is installed. See #recommended_wifi for replacements.

List of supported ThinkPad X60 Tablets

Native gpu initialization ('native graphics') which replaces the proprietary VGA Option ROM ('Video BIOS' or 'VBIOS').

To find what LCD panel you have, see: ../misc/#get_edid_panelname.

There are 5 known LCD panels for the X60 Tablet:

  • X60T XGA (1024x768):
    • BOE-Hydis HV121X03-100 (works)
    • Samsung LTN121XP01 (does not work. blank screen)
    • BOE-Hydis HT12X21-351 (does not work. blank screen)
  • X60T SXGA+ (1400x1050):
    • BOE-Hydis HV121P01-100 (works)
    • BOE-Hydis HV121P01-101 (works)

Most X60Ts only have digitizer (pen), but some have finger (touch) aswell as pen; finger/multitouch doesn't work, only digitizer (pen) does.

You can remove an X61/X61s motherboard from the chassis and install an X60/X60s motherboard in its place (for flashing libreboot). The chassis is mostly identical and the motherboards are the same shape/size. It is unknown if the same applies between the X60 Tablet and the X61 Tablet.

The X60 Tablet typically comes with an Intel wifi chipset which does not work at all without proprietary firmware, and while Lenovo BIOS is running the system will refuse to boot if you replace the card. Fortunately it is very easily replaced; just remove the card and install another one after libreboot is installed. See #recommended_wifi for replacements.

A user with a X60T that has digitizer+finger support, reported that they could get finger input working. They used linuxwacom at git tag 0.25.99.2 and had the following in their xorg.conf:

# Now, for some reason (probably a bug in linuxwacom),
# the 'Touch=on' directive gets reset to 'off'.
# So you'll need to do
# $ xsetwacom --set WTouch Touch on
#
# tested with linuxwacom git 42a42b2a8636abc9e105559e5dea467163499de7

Section "Monitor"
     Identifier             "<default monitor>"
     DisplaySize     245 184
EndSection

Section "Screen"
     Identifier "Default Screen Section"
     Monitor    "<default monitor<"
EndSection

Section "InputDevice"
     Identifier  "WTouch"
     Driver      "wacom"
     Option      "Device" "/dev/ttyS0"
#    Option      "DebugLevel" "12"
     Option      "BaudRate" "38400"
     Option      "Type" "touch"
     Option      "Touch" "on"
     Option      "Gesture" "on"
     Option      "ForceDevice" "ISDV4"
#    Option      "KeepShape" "on"
     Option      "Mode" "Absolute"
     Option      "RawSample" "2"
#    Option      "TPCButton" "off"
     Option      "TopX" "17"
     Option      "TopY" "53"
     Option      "BottomX" "961"
     Option      "BottomY" "985"
EndSection

Section "ServerLayout"
  Identifier    "Default Layout"
  Screen        "Default Screen Section"
  InputDevice   "WTouch" "SendCoreEvents"
EndSection

% ThinkPad X60: Recovery guide

This section documents how to recover from a bad flash that prevents your ThinkPad X60 from booting.

Table of Contents

Brick type 1: bucts not reset. {#bucts_brick}

You still have Lenovo BIOS, or you had libreboot running and you flashed another ROM; and you had bucts 1 set and the ROM wasn't dd'd.* or if Lenovo BIOS was present and libreboot wasn't flashed.\ \ In this case, unbricking is easy: reset BUC.TS to 0 by removing that yellow cmos coin (it's a battery) and putting it back after a minute or two:\ \ \ *Those dd commands should be applied to all newly compiled X60 ROM images (the ROM images in libreboot binary archives already have this applied!):\ dd if=coreboot.rom of=top64k.bin bs=1 skip=\$[\$(stat -c %s coreboot.rom) - 0x10000] count=64k\ dd if=coreboot.rom bs=1 skip=\$[\$(stat -c %s coreboot.rom) - 0x20000] count=64k | hexdump\ dd if=top64k.bin of=coreboot.rom bs=1 seek=\$[\$(stat -c %s coreboot.rom) - 0x20000] count=64k conv=notrunc\ (doing this makes the ROM suitable for use when flashing a system that still has Lenovo BIOS running, using those instructions: http://www.coreboot.org/Board:lenovo/x60/Installation.

bad rom (or user error), system won't boot {#recovery}

In this scenario, you compiled a ROM that had an incorrect configuration, or there is an actual bug preventing your system from booting. Or, maybe, you set BUC.TS to 0 and shut down after first flash while Lenovo BIOS was running. In any case, your system is bricked and will not boot at all.

"Unbricking" means flashing a known-good (working) ROM. The problem: you can't boot the system, making this difficult. In this situation, external hardware (see hardware requirements above) is needed which can flash the SPI chip (where libreboot resides).

Remove those screws:\

Push the keyboard forward (carefully):\

Lift the keyboard up and disconnect it from the board:\

Grab the right-hand side of the chassis and force it off (gently) and pry up the rest of the chassis:\

You should now have this:\

Disconnect the wifi antenna cables, the modem cable and the speaker:\

Unroute the cables along their path, carefully lifting the tape that holds them in place. Then, disconnect the modem cable (other end) and power connection and unroute all the cables so that they dangle by the monitor hinge on the right-hand side:\

Disconnect the monitor from the motherboard, and unroute the grey antenna cable, carefully lifting the tape that holds it into place:\

Carefully lift the remaining tape and unroute the left antenna cable so that it is loose:\

Remove the screw that is highlighted (do NOT remove the other one; it holds part of the heatsink (other side) into place):\

Remove those screws:\

Carefully remove the plate, like so:\

Remove the SATA connector:\

Now remove the motherboard (gently) and cast the lcd/chassis aside:\

Lift back that tape and hold it with something. Highlighted is the SPI flash chip:\

Now wire up the BBB and the Pomona with your PSU.\ Refer to bbb_setup.html for how to setup the BBB for flashing.\ Note, the guide mentions a 3.3v DC PSU but you don't need this on the X60: if you don't have or don't want to use an external PSU, then make sure not to connect the 3.3v leads mentioned in the guide; instead, connect the AC adapter (the one that normally charges your battery) so that the board has power (but don't boot it up) \ Correlate the following with the BBB guide linked above:

POMONA 5250:
===  golden finger and wifi switch ====
 18              -       - 1
 22              -       - NC                    ---------- audio jacks are on this end
 NC              -       - 21
 3.3V (PSU)      -       - 17 - this is pin 1 on the flash chip
===  CPU fan ===
This is how you will connect. Numbers refer to pin numbers on the BBB, on the plugs near the DC jack.

Connecting the BBB and pomona (in this image, an external 3.3v DC PSU was used):\

Flashrom binaries for ARM (tested on a BBB) are distributed in libreboot_util. Alternatively, libreboot also distributes flashrom source code which can be built.

SSH'd into the BBB:\ # ./flashrom -p linux_spi:dev=/dev/spidev1.0,spispeed=512 -w yourrom.rom

It should be Verifying flash... VERIFIED at the end. If flashrom complains about multiple flash chip definitions detected, then choose one of them following the instructions in the output.

Remove the programmer and put it away somewhere. Put back the tape and press firmly over it:\

Your empty chassis:\

Put the motherboard back in:\

Reconnect SATA:\

Put the plate back and re-insert those screws:\

Re-route that antenna cable around the fan and apply the tape:\

Route the cable here and then (not shown, due to error on my part) reconnect the monitor cable to the motherboard and re-insert the screws:\

Re-insert that screw:\

Route the black antenna cable like so:\

Tuck it in neatly like so:\

Route the modem cable like so:\

Connect modem cable to board and tuck it in neatly like so:\

Route the power connection and connect it to the board like so:\

Route the antenna and modem cables neatly like so:\

Connect the wifi antenna cables. At the start of the tutorial, this system had an Intel wifi chip. Here you see I've replaced it with an Atheros AR5B95 (supports 802.11n and can be used without blobs):\

Connect the modem cable:\

Connect the speaker:\

You should now have this:\

Re-connect the upper chassis:\

Re-connect the keyboard:\

Re-insert the screws that you removed earlier:\

Power on!\

Operating system:\

Copyright © 2014, 2015 Leah Rowe info@minifree.org\ This page is available under the CC BY SA 4.0 % ThinkPad X60 Tablet: Recovery guide

This section documents how to recover from a bad flash that prevents your ThinkPad X60 Tablet from booting.

Table of Contents

Brick type 1: bucts not reset. {#bucts_brick}

You still have Lenovo BIOS, or you had libreboot running and you flashed another ROM; and you had bucts 1 set and the ROM wasn't dd'd.* or if Lenovo BIOS was present and libreboot wasn't flashed.\ \ In this case, unbricking is easy: reset BUC.TS to 0 by removing that yellow cmos coin (it's a battery) and putting it back after a minute or two:\ \ \ *Those dd commands should be applied to all newly compiled X60 ROM images (the ROM images in libreboot binary archives already have this applied!):\ dd if=coreboot.rom of=top64k.bin bs=1 skip=\$[\$(stat -c %s coreboot.rom) - 0x10000] count=64k\ dd if=coreboot.rom bs=1 skip=\$[\$(stat -c %s coreboot.rom) - 0x20000] count=64k | hexdump\ dd if=top64k.bin of=coreboot.rom bs=1 seek=\$[\$(stat -c %s coreboot.rom) - 0x20000] count=64k conv=notrunc\ (doing this makes the ROM suitable for use when flashing a system that still has Lenovo BIOS running, using those instructions: http://www.coreboot.org/Board:lenovo/x60/Installation.

bad rom (or user error), system won't boot {#recovery}

In this scenario, you compiled a ROM that had an incorrect configuration, or there is an actual bug preventing your system from booting. Or, maybe, you set BUC.TS to 0 and shut down after first flash while Lenovo BIOS was running. In any case, your system is bricked and will not boot at all.

"Unbricking" means flashing a known-good (working) ROM. The problem: you can't boot the system, making this difficult. In this situation, external hardware (see hardware requirements above) is needed which can flash the SPI chip (where libreboot resides).

Remove those screws:\

Remove the HDD:\

Push keyboard forward to loosen it:\

Lift:\

Remove those:\

Also remove that (marked) and unroute the antenna cables:\

For some X60T laptops, you have to unroute those too:\

Remove the LCD extend board screws. Also remove those screws (see blue marks) and remove/unroute the cables and remove the metal plate:\

Remove that screw and then remove the board:\

Now wire up the BBB and the Pomona with your PSU.\ Refer to bbb_setup.html for how to setup the BBB for flashing.\ Note, the guide mentions a 3.3v DC PSU but you don't need this on the X60 Tablet: if you don't have or don't want to use an external PSU, then make sure not to connect the 3.3v leads mentioned in the guide; instead, connect the AC adapter (the one that normally charges your battery) so that the board has power (but don't boot it up) \ Correlate the following with the BBB guide linked above:

POMONA 5250:
===  golden finger and wifi switch ====
 18              -       - 1
 22              -       - NC                    ---------- audio jacks are on this end
 NC              -       - 21
 3.3V (PSU)      -       - 17 - this is pin 1 on the flash chip
===  CPU fan ===
This is how you will connect. Numbers refer to pin numbers on the BBB, on the plugs near the DC jack.

Connecting the BBB and pomona (in this image, an external 3.3v DC PSU was used):\

Flashrom binaries for ARM (tested on a BBB) are distributed in libreboot_util. Alternatively, libreboot also distributes flashrom source code which can be built.

SSH'd into the BBB:\ # ./flashrom -p linux_spi:dev=/dev/spidev1.0,spispeed=512 -w yourrom.rom

It should be Verifying flash... VERIFIED at the end. If flashrom complains about multiple flash chip definitions detected, then choose one of them following the instructions in the output.

Reverse the steps to re-assemble your system.

Copyright © 2014, 2015 Leah Rowe info@minifree.org\ This page is available under the CC BY SA 4.0